The PX8000 precesion power scope is better than traditional power measurement instruments because they cannot provide accurate time measurements; oscilloscopes are not designed to measure power. The PX8000 is the world's first precision power scope, bringing oscilloscope-style time-based measurement to the world of power measurement. It can capture voltage and current waveforms precisely, opening up applications and solutions for a huge variety of emerging power measurement problems.

Features:

 Provides simultaneous voltage and current multiplication to give real-time power sampling. Trend measurements between waveforms can be calculated by mathematical functions (up to four million points). Supports the capture of power waveforms over specific periods of time through the definition of start and stop "cursors".  Supports X-Y axis displays as standard. It can also display lissajous waveforms of input and output for phase analysis. An always-active History function automatically records up to 1,000 historical waveforms.  An accompanying PC application called PowerViewerPlus can be used to capture waveform data for further analysis.  Features arithmetical, time-shift, FFT and other computations that enable users to display waveforms with offsets and skew corrections.  Makes it possible to simultaneously measure the harmonic components of voltage and current waves as well as the harmonic distortion factor.  Up to 16 different waveforms- inluding voltage, current and power, can be displayed side-by-side, giving engineers instant snapshots of performance.  Supports the measurement of all power waveform parameters between precisely defined start and stop cursors. Built-in functions for the direct calculation of variables, such as root mean square (RMS) and mean power values, to enable the identification of cycle-by-cycle trends.  Automatic de-skewing funtion eliminates offsets between current and voltage signals that may be caused by sensor or input characteristics. Offers industry-leading isolation performance at the highest speefs. Delivers the performance needed to develop high-efficiency inverters that operate at high voltages, large currents, and high frequency.